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Technology1h 55m ago

A team from Florida State University used PSC’s NSF-funded Bridges-2 to explore how a type of matter on a triangular moiré superlattice behaves.

Florida

Who
Aman Kumar, Hitesh Changlani, Cyprian Lewandowski, Florida State University, National High Magnetic Field Laboratory (Maglab)
What
A team from Florida State University used PSC’s NSF-funded Bridges-2 to explore how a type of matter on a triangular moiré superlattice behaves.
When
Fri, 12 Jun 2026 20:26:22 GMT · 1h 55m ago
Where
Florida ·
Why
This research aims to improve theory and supply a new tool for materials engineers to use in designing next-generation electronic devices.
The Frontline Impact

How this affects you

This research provides a new understanding of how materials behave at the atomic scale, offering a tool for engineers to design smaller and more powerful electronic devices. It helps predict the unusual quantum behavior of electrons, which is crucial for advancing electronics technology.

Story chain

6 events in this thread
  1. Currently Reading1h 55m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 to explore how a type of matter on a triangular moiré superlattice behaves.
  2. Technology1h 55m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 to explore how a type of matter on a triangular moiré superlattice behaves, supplying a new tool for materials engineers to use in designing devices.
    Open article
  3. Technology1h 55m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves.
    Open article
  4. Technology1h 55m ago
    Scientists have used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves, supplying a new tool for materials engineers to use in designing devices.
    Open article
  5. Technology1h 55m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves.
    Open article
  6. Technology1h 55m ago
    Scientists used PSC's NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves, supplying a new tool for materials engineers.
    Open article

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